<?xml version="1.0" encoding="UTF-8"?>
<GenerateModel xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNamespaceSchemaLocation="generateMetaModel_Module.xsd">
  <PythonExport
      Father="PyObjectBase"
      Name="FacetPy"
      Twin="Facet"
      TwinPointer="Facet"
      Include="Mod/Mesh/App/Facet.h"
      FatherInclude="Base/PyObjectBase.h"
      Namespace="Mesh"
      Constructor="true"
      Delete="true"
      FatherNamespace="Base">
    <Documentation>
      <Author Licence="LGPL" Name="Juergen Riegel" EMail="Juergen.Riegel@web.de" />
		<DeveloperDocu>Facet in a Mesh</DeveloperDocu>
		<UserDocu>Facet in mesh
This is a facet in a MeshObject. You can get it by e.g. iterating a
mesh. The facet has a connection to its mesh and allows therefore
topological operations. It is also possible to create an unbounded facet e.g. to create
a mesh. In this case the topological operations will fail. The same is
when you cut the bound to the mesh by calling unbound().
		</UserDocu>
	</Documentation>
	  <Methode Name="unbound">
		  <Documentation>
			  <UserDocu>method unbound()
Cut the connection to a MeshObject. The facet becomes
free and is more or less a simple facet.
After calling unbound() no topological operation will
work!
			  </UserDocu>
		  </Documentation>
	  </Methode>
	  <Methode Name="intersect">
		  <Documentation>
			  <UserDocu>intersect(Facet) -> list
Get a list of intersection points with another triangle.
			  </UserDocu>
		  </Documentation>
	  </Methode>
      <Methode Name="isDegenerated">
          <Documentation>
              <UserDocu>isDegenerated([float]) -> boolean
Returns true if the facet is degenerated, otherwise false.
              </UserDocu>
          </Documentation>
      </Methode>
      <Methode Name="isDeformed">
          <Documentation>
              <UserDocu>isDegenerated(MinAngle, MaxAngle) -> boolean
Returns true if the facet is deformed, otherwise false.
A triangle is considered deformed if an angle is less than MinAngle
or higher than MaxAngle.
The two angles are given in radian.
              </UserDocu>
          </Documentation>
      </Methode>
      <Methode Name="getEdge">
          <Documentation>
              <UserDocu>getEdge(int) -> Edge
Returns the edge of the facet.
              </UserDocu>
          </Documentation>
      </Methode>
      <Attribute Name="Index" ReadOnly="true">
		  <Documentation>
			  <UserDocu>The index of this facet in the MeshObject</UserDocu>
		  </Documentation>
		  <Parameter Name="Index" Type="Long"/>
	  </Attribute>
	  <Attribute Name="Bound" ReadOnly="true">
		  <Documentation>
			  <UserDocu>Bound state of the facet</UserDocu>
		  </Documentation>
		  <Parameter Name="Bound" Type="Boolean"/>
	  </Attribute>
	  <Attribute Name="Normal" ReadOnly="true">
		  <Documentation>
			  <UserDocu>Normal vector of the facet.</UserDocu>
		  </Documentation>
		  <Parameter Name="Normal" Type="Object"/>
	  </Attribute>
	  <Attribute Name="Points" ReadOnly="true">
		  <Documentation>
			  <UserDocu>A list of points of the facet</UserDocu>
		  </Documentation>
		  <Parameter Name="Points" Type="List"/>
	  </Attribute>
	  <Attribute Name="PointIndices" ReadOnly="true">
		  <Documentation>
			  <UserDocu>The index tuple of point vertices of the mesh this facet is built of</UserDocu>
		  </Documentation>
		  <Parameter Name="PointIndices" Type="Tuple"/>
	  </Attribute>
		<Attribute Name="NeighbourIndices" ReadOnly="true">
			<Documentation>
				<UserDocu>The index tuple of neighbour facets of the mesh this facet is adjacent with</UserDocu>
			</Documentation>
			<Parameter Name="NeighbourIndices" Type="Tuple"/>
		</Attribute>
        <Attribute Name="Area" ReadOnly="true">
            <Documentation>
                <UserDocu>The area of the facet</UserDocu>
            </Documentation>
            <Parameter Name="Area" Type="Float"/>
        </Attribute>
        <Attribute Name="AspectRatio" ReadOnly="true">
            <Documentation>
                <UserDocu>The aspect ratio of the facet computed by longest edge and its height</UserDocu>
            </Documentation>
            <Parameter Name="AspectRatio" Type="Float"/>
        </Attribute>
        <Attribute Name="AspectRatio2" ReadOnly="true">
            <Documentation>
                <UserDocu>The aspect ratio of the facet computed by radius of circum-circle and in-circle</UserDocu>
            </Documentation>
            <Parameter Name="AspectRatio2" Type="Float"/>
        </Attribute>
        <Attribute Name="Roundness" ReadOnly="true">
            <Documentation>
                <UserDocu>The roundness of the facet</UserDocu>
            </Documentation>
            <Parameter Name="Roundness" Type="Float"/>
        </Attribute>
        <Attribute Name="CircumCircle" ReadOnly="true">
            <Documentation>
                <UserDocu>The center and radius of the circum-circle</UserDocu>
            </Documentation>
            <Parameter Name="CircumCircle" Type="Tuple"/>
        </Attribute>
        <Attribute Name="InCircle" ReadOnly="true">
            <Documentation>
                <UserDocu>The center and radius of the in-circle</UserDocu>
            </Documentation>
            <Parameter Name="InCircle" Type="Tuple"/>
        </Attribute>
    </PythonExport>
</GenerateModel>
